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Corey Mousseau

This course is one of several courses designed for Algebra Based AP Physics 1. In this course we will dive into Rotational Motion, specifically Rotational Kinematics, which includes Angular Displacement, Angular Velocity, Angular Acceleration, and related analysis.  

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This course is one of several courses designed for Algebra Based AP Physics 1. In this course we will dive into Rotational Motion, specifically Rotational Kinematics, which includes Angular Displacement, Angular Velocity, Angular Acceleration, and related analysis.  

The videos and resources will include lectures, demonstrations, and plenty of worked out example problems with High School physics curriculum and the AP Physics 1 curriculum in mind. This is perfect for any student planning to take the AP exam or any Introductory College physics student. While this course does not cover calculus based physics, any student enrolled in such course will still benefit from the ground work laid out here.

While this course does have sections for both High School and AP Level Physics, the videos intended for the AP crowd will be clearly labeled.

Upon completion of this course students should look to complete my other courses regarding the other content areas in AP Physics 1 and AP Physics 2.

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What's inside

Learning objective

This rotational motion course will specifically focus on rotational kinematics including angular displacement, angular velocity, and angular acceleration

Syllabus

Introduction to Rotational Kinematics
Introduction
Physics Course Online Course Map
Massive collection of worksheets for Rotational Kinematics, Dynamics, Energy, and Momentum
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Traffic lights

Read about what's good
what should give you pause
and possible dealbreakers
Provides a solid foundation in rotational kinematics, which is essential for understanding more advanced physics concepts, such as dynamics and energy
Includes lectures, demonstrations, and worked-out example problems specifically designed with the AP Physics 1 curriculum in mind, making it a targeted resource
Lays a strong groundwork in rotational kinematics, which can be beneficial even for students taking calculus-based physics courses, despite not covering calculus itself
Offers a massive collection of worksheets for rotational kinematics, dynamics, energy, and momentum, providing ample practice opportunities
Focuses specifically on rotational kinematics, including angular displacement, angular velocity, and angular acceleration, which are key topics for the AP Physics 1 exam
Recommends completing other courses regarding other content areas in AP Physics 1 and AP Physics 2, suggesting that this course is part of a larger series

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Reviews summary

Rotational kinematics for ap and college physics

According to learners, this course provides a solid foundation in rotational kinematics, making it an excellent supplement for AP Physics 1 and introductory college physics students. Reviewers frequently praise the clear explanations and the instructor's ability to break down difficult topics. A major positive highlight is the provision of abundant practice problems and worksheets which are considered invaluable for reinforcing learning. While the course is largely well-received, a few students noted that some explanations could be clearer in later sections or that they desired more detailed solutions for all problems. One review also indicated it might be strictly algebra-based, potentially less suitable for calculus-based courses despite the description.
Primarily algebra-based, not calc-based.
"Didn't quite meet my expectations... Felt like it was strictly algebra-based."
Excellent supplement for high school/college physics.
"This course is perfect for supplementing AP Physics 1."
"Highly recommend for anyone struggling with rotational kinematics in college physics."
"As an AP Physics 1 student, this course really helped me grasp the concepts."
"This course is a lifesaver for AP Physics students."
Concepts are explained clearly and effectively.
"Great explanations and lots of practice problems with step by step solutions."
"The instructor explains the concepts clearly."
"The definitions and concepts are explained in a way that makes sense..."
"Excellent quality explanations and problem-solving."
Plenty of practice problems and worksheets.
"...lots of practice problems with step by step solutions. I especially appreciated the worksheets provided."
"The sheer number of problems available is impressive."
"The provided worksheets are a significant plus, offering much-needed practice."
"The practice problems are key to success."
Some solutions could be more detailed.
"The worksheets are helpful but some solutions could be more detailed."
"The worksheet answers were sometimes hard to follow without full step-by-step solutions."
"More challenging problems with detailed video solutions would be great."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Physics - Rotational Motion 1 - Kinematics - College and AP with these activities:
Review Linear Kinematics
Reinforce your understanding of linear kinematics concepts, as they form the foundation for understanding rotational kinematics.
Browse courses on Kinematics
Show steps
  • Review definitions of displacement, velocity, and acceleration.
  • Practice solving linear motion problems.
  • Relate linear motion concepts to their rotational counterparts.
Solve Rotational Kinematics Problems
Solidify your understanding of rotational kinematics by working through a variety of problems.
Show steps
  • Find a set of rotational kinematics problems online or in a textbook.
  • Solve each problem, showing all your work.
  • Check your answers and review any mistakes.
Create a Rotational Kinematics Cheat Sheet
Synthesize the key concepts and equations of rotational kinematics into a concise and useful reference.
Show steps
  • Identify the most important formulas and definitions.
  • Organize the information in a clear and logical manner.
  • Include example problems to illustrate each concept.
Four other activities
Expand to see all activities and additional details
Show all seven activities
Explain Rotational Kinematics to a Friend
Reinforce your understanding by teaching the concepts to someone else.
Show steps
  • Prepare a brief explanation of rotational kinematics.
  • Explain the concepts to a friend or family member.
  • Answer any questions they may have.
Read University Physics
Expand your understanding of rotational kinematics with a comprehensive textbook.
Show steps
  • Read the chapters on rotational motion.
  • Work through the example problems.
  • Attempt the end-of-chapter exercises.
Read Physics for Scientists and Engineers
Gain a different perspective on rotational kinematics with another popular textbook.
Show steps
  • Read the chapters on rotational motion.
  • Work through the example problems.
  • Attempt the end-of-chapter exercises.
Analyze Rotational Motion in a Real-World System
Apply your knowledge of rotational kinematics to a real-world system, such as a spinning wheel or a rotating motor.
Show steps
  • Present your findings in a report or presentation.
  • Choose a system that exhibits rotational motion.
  • Measure the relevant parameters, such as angular velocity and acceleration.
  • Analyze the motion using the equations of rotational kinematics.

Career center

Learners who complete Physics - Rotational Motion 1 - Kinematics - College and AP will develop knowledge and skills that may be useful to these careers:
Aerospace Engineer
Aerospace engineers design, develop, and test aircraft, spacecraft, and missiles. A strong understanding of rotational motion is fundamental to this role, as many aspects of flight involve angular velocities and accelerations. This course specifically covers rotational kinematics, which is critical for analyzing the behavior of rotating components in aerospace vehicles including turbines, rotors, and guidance systems. By understanding concepts like angular displacement and acceleration, an aerospace engineer can better design and analyze the complex movements of machinery in aerospace applications. This course provides the groundwork for a career in aerospace engineering.
Mechanical Engineer
Mechanical engineers design, develop, and manufacture mechanical devices and systems. Many of these systems involve rotating parts. This course is useful for anyone in this career field because it focuses on rotational kinematics, including angular displacement, angular velocity, and angular acceleration. These principles are essential for the design and analysis of rotating machinery such as engines, gearboxes, and turbines. A mechanical engineer will need to understand the behavior of such systems. The comprehensive examples in this course will help someone in this field gain a deeper understanding of how to apply physics principles to the mechanical world.
Robotics Engineer
Robotics engineers design, build, and program robots. This career heavily utilizes concepts like rotational motion, which is essential for designing robotic arms, wheels, and other moving parts. This course specifically focuses on rotational kinematics, including angular displacement, angular velocity, and angular acceleration, which helps a robotics engineer understand and control the movements of robotic systems. This course may be useful for those entering the field of robotics as it builds a fundamental understanding of rotational mechanics.
Physics Teacher
Physics teachers instruct students in the principles of physics. A strong understanding of rotational kinematics is important in this role, as it is a fundamental concept in physics. This course goes into detail on topics like angular displacement, angular velocity, and angular acceleration, all of which a physics teacher would need to understand to be able to effectively communicate these ideas to students. The course also includes worked examples that would make a teacher more effective in the classroom. The content in this course is perfect for any future physics educator.
Automotive Engineer
Automotive engineers design and develop vehicles and their components. The study of rotational motion is a crucial aspect of this work, as many automotive components such as wheels, engines, and transmissions involve rotation. This course, which focuses on rotational kinematics, may be useful for an automotive engineer, as it explores angular displacement, angular velocity, and angular acceleration. The comprehensive problem solving within this course provides a firm foundation in the principles that underpin automotive mechanics.
Research Scientist
Research scientists conduct experiments and analyze data to explore scientific phenomena. Many areas of research, particularly in physics, may require a deep understanding of rotational motion. This course will help a research scientist as it provides a detailed study of rotational kinematics, including angular displacement, velocity, and acceleration. By understanding these principles thoroughly, a research scientist can better analyze experiments related to moving systems. This understanding may help with some of the data analysis that they may encounter in this career field.
Simulation Engineer
Simulation engineers create models of physical systems for the purpose of testing, analysis, and training. An understanding of rotational motion is a critical aspect of modeling many dynamic systems. This course may be useful for a simulation engineer, as it specifically covers rotational kinematics, including angular displacement, velocity, and acceleration and the analysis of motion. A simulation engineer can use the concepts of this course to create more accurate simulations of mechanical and physical systems
Data Analyst
Data analysts interpret large data sets, identify trends, and provide insights to guide decision making. While this may not be an obvious fit, the analytical skills developed through studying rotational kinematics and problem solving may be helpful for a data analyst. This course includes numerous worked examples. Students are challenged to find their own solutions before looking at the solutions provided. Data analysts need a strong analytical mindset to be able to process and then create insights from data. This course may be useful in developing those kinds of skills.
Test Engineer
Test engineers design and conduct tests on products and systems to ensure that they meet required specifications. Many of these systems involve rotational components that must be tested. This course may be useful for test engineers by providing a foundational understanding of rotational kinematics including angular displacement, angular velocity and angular acceleration which they might need to evaluate such systems. The numerous example problems in this course may be helpful when analyzing results during the testing phase of development.
Biomedical Engineer
Biomedical engineers design and develop medical devices and equipment. Some of these devices may involve the principles of rotational movement. This course, by exploring rotational kinematics including angular displacement, angular velocity, and angular acceleration, may give a biomedical engineer an understanding of rotational movement. The course also includes a large number of sample problems which may provide someone in this field an understanding of how to apply physical principles to engineering.
Software Developer
Software developers design and develop software applications. While this career does not directly relate to rotational motion, the problem solving skills gained in this course may be useful for this career. This course has many examples that challenge students to work through problems on their own. This practice could translate well to the problem solving tasks of a software developer. A focus on problem solving may be helpful to someone in this field. This course may be useful for someone in this field that wants to improve their problem solving mindset.
Technical Writer
Technical writers create documentation for technical products and processes. This career field may be a good fit for those with a deep understanding of physics and the ability to convey these concepts through writing. This course is designed to help students understand the principles of rotational motion including angular displacement, angular velocity, and angular acceleration. A technical writer with a deep understanding of physics may find many opportunities in this field. This course may be useful for technical writers looking to expand their knowledge of physics principles.
Patent Attorney
Patent attorneys advise clients on intellectual property rights, including those related to inventions. This career field may benefit from the study of physics. The problem solving skills learned in this course may help a patent attorney understand complex technical details of various inventions. This course has a large number of worked examples and also challenges students to solve problems themselves before looking at the solutions. This course may be useful for someone seeking a career as a patent attorney.
Financial Analyst
Financial analysts analyze data to provide guidance for investment decisions. The problem solving skills learned in this course may be useful for a financial analyst. This physics course challenges students to work through complex problems. The ability to break down complex problems may be helpful in a financial career. This course may be useful to finance professionals looking to improve their analytical skills.
Project Manager
Project managers plan, execute, and oversee projects. While the specific physics content of this course is not directly related to project management, the problem solving skills and the need to understand complex systems may be useful in this career. This course walks students through complex problems involving rotational kinematics and asks them to find solutions. This type of thinking may be useful in a project management role. This course may be useful for a project manager looking to improve their problem solving skillset.

Reading list

We've selected two books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Physics - Rotational Motion 1 - Kinematics - College and AP.
Standard textbook used in many introductory physics courses. It provides a comprehensive overview of physics concepts, including rotational motion. It useful reference for students who want to delve deeper into the subject matter. This book is commonly used as a textbook at academic institutions.
Is another popular textbook for introductory physics courses. It provides a clear and concise explanation of rotational motion concepts. It useful reference for students who want to see a different perspective on the material. This book is commonly used as a textbook at academic institutions.

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